A-Level Chemistry is hard, there's no denying it! From organic chemistry to kinetics, at times it feel like you’ll never have time to learn it all. We know that A-Level Chemistry can be a struggle, however with some careful preparation you can be one of the lucky 8% of students who receive an A* grade!
We're here to help and wanted to design the perfect, comprehensive revision platform for A-Level students. This course contains videos, textbooks, flashcards, past papers and more, so you will always have a variety of resources for each topic.
The Study Mind A-Level Course contains:
- 200+ video tutorials
- All topics covered
- Revision notes for every chapter
- Exclusive examiner's tips
- Access until June 2023
To gain access to all of this, click Enrol Now to receive access for a one-off joining fee of £15.
We're so confident that our course will improve your grades that if you don't achieve an A or A* grade we'll give you your money back - no questions asked!
Take a look at a sample lesson below:
Course Curriculum 🧪
- 1. Measuring Relative Masses (9:13)
- 2. The Mole and the Avogrado Constant (8:58)
- 3. Empirical and Molecular Formulae (17:15)
- 4. Balancing Chemical Equations (20:26)
- 5. Ion Formation (5:51)
- 6. Further Mole calculations (17:52)
- 7. Stoichiometric Calculations (14:31)
- 8. Calculating Percentage Yield (8:47)
- 1. Chemical Equilibria and Le Chatelier's Principle (15:52)
- 2. Chemical Equilibria applied to Industry (7:29)
- 3. Calculations with Equilibrium Constants (22:13)
- 4. Gas Partial Pressures (5:19)
- 5. Gas Equilibria and Kp (8:55)
- 6. Le Chatelier's Principle in Gas Equilibria (4:46)
- 7. Changing Kp (4:20)
- 8. Brownsted-Lowry Acid-Base Equilibrium (8:42)
- 9. Strength of Acids and Bases (3:19)
- 10. Neutralisation Reactions (3:39)
- 11. The pH scale and Strong acids (7:14)
- 12. Acid-base Indicators (4:53)
- 13. Drawing pH Curves (13:06)
- 1. Lattice Enthalpies (4:20)
- 2. Enthalpy Key Terms (13:01)
- 3. Construction of Born-Haber Cycles (7:20)
- 4. Calculations involving Born-Haber Cycles (7:25)
- 5. Enthalpy of Hydration (2:42)
- 6. Enthalpy of Solution (2:23)
- 7. Calculating Enthalpy of Solution (3:19)
- 8. Introduction to Entropy (4:11)
- 9. Total Entropy Changes (5:08)
- 10. Entropy Change Predictions (3:21)
- 11. Gibbs Free Energy (3:45)
- 12. Calculations involving Free Energy (6:06)
- 1. The Transition metals (3:36)
- 2. Variable Oxidation States (2:06)
- 3. Characteristics of Transition Metals (4:30)
- 4. Introduction to Complex Ions (5:57)
- 5. Ligands (4:01)
- 6. Complex Ion Shape (4:15)
- 7. Ligand Substitution Reactions (21:43)
- 8. Using Potassium Permanganate in Redox Titrations (15:14)
- 9. Iodine-Sodium Thiosulfate Titrations (10:10)
- 10. Examples of Redox in Transition Metals (8:51)
- 11. Colours of Transition Metal Ions (10:35)
- 12. Cis Trans Isomerism in Complex Ions (3:16)
- 13. Optical Isomerism in Complex Ions (2:12)